|Publication number||US7035260 B1|
|Application number||US 09/939,871|
|Publication date||Apr 25, 2006|
|Filing date||Aug 27, 2001|
|Priority date||Aug 27, 2001|
|Also published as||US8031712|
|Publication number||09939871, 939871, US 7035260 B1, US 7035260B1, US-B1-7035260, US7035260 B1, US7035260B1|
|Inventors||Carl E. Betta, Gerald L Hoover, John Jutten Lawser, James J. Mansell, Han Q. Nguyen, Larry Arnise Russell|
|Original Assignee||At&T Corp.|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (1), Non-Patent Citations (1), Referenced by (51), Classifications (15), Legal Events (3)|
|External Links: USPTO, USPTO Assignment, Espacenet|
This invention relates to a technique for providing a Voice-Over Internet Protocol (VoIP) service implementation that affords a subscriber all of the features of an embedded traditional voice network while providing support for multimedia and Internet-based web applications.
Traditionally, telephone subscribers have received Plain-Old Telephone Service (POTS) from a Public Switched Telephone Network (PSTN). In a conventional PSTN, the receipt of an incoming featured call (e.g., an 8XX, 900 or SDN call), at an ingress telephone switch of a toll network, such as the AT&T network triggers a query to a database, typically known as a Service Control Point (SCP) or a Network Control Point to obtain instructions for processing the call. Over time, and often at great expense, conventional toll networks have established a large embedded base of voice features for such featured calls, such as for example, time-of-day routing.
Today, providers of telecommunications service have begun to migrate from traditional circuit-switched networks to packet-based networks that offer Voice over Internet Protocol (VoIP) telephony. However, in connection with such a migration, service providers do not want to forego the opportunity to provide their subscribers with conventional services traditionally available in the circuit-switched PSTN.
Heretofore, a service provider migrating to a packet network architecture had to employ a call handling mechanism within the packet network itself to re-create the call features traditionally available in the circuit-switched PSTN. Adding such a call handling mechanism to a packet network to re-create the embedded features in the PSTN imposes a significant cost. U.S. patent application Ser. No. 09/824,378, filed Apr. 2, 2001, entitled “Technique For Providing Intelligent Features For Calls In A Communications Network Independent Of Network Architecture” and assigned to AT&T, (incorporated by reference herein) describes an approach for overcoming this problem by utilizing a common database in telecommunications network having both circuit-switched and packet-based call handling systems. The database contains a common set of call processing instructions accessible to both the circuit-switched and packet-based call handling systems thus avoiding the need to replicate features embedded in the circuit-switched components for use by the packet-based call handling mechanism.
While the approach described in the aforementioned '378 application does resolve some of the difficulties associated with providing conventional calling features to VoIP calls, the approach does not address how to afford an IP endpoint the ability to implement a stateless or stateful multimedia application. The '378 application also does not address the need to provide local number portability, and dynamic addressing of network endpoints.
Thus, there is a need for a technique for providing a Voice-Over Internet Protocol (VoIP) service implementation that overcomes the aforementioned disadvantages of the prior art.
Briefly, in accordance with a first aspect of the invention, there is provided a method for processing a call dialed to an IP endpoint in a communications network to afford the endpoint the ability to implement a multimedia application if desired. In accordance with the method, the call is received in the network server for processing. In practice, a voice (POTS) call originated at a traditional telephone is converted into a VoIP format and signaling information associated with the voice call is mapped into an appropriate format corresponding to the VoIP call. In response to the receipt of the call, a session is established with the IP endpoint by first resolving the address associated with the end point. In connection with the call, a determination is made whether the called endpoint IP end point desires a multimedia application, and if so, the desired multimedia application is desired.
In accordance with another aspect of the invention, a method is provided for routing calls that originate either in a traditional circuit-switched environment, such as a PSTN or in a packet-based network and are dialed to an endpoint such that a common local routing number database is employed for Local Number Portability queries. In accordance with the method, an incoming call is received at one of a voice and IP call servers, depending on whether the call is formatted as a traditional voice (POTS) call or has a VoIP format. In response to a call at one of the call servers, a query is launched to a common Local Number Portability (LNP) database serving both call servers. The LNP database responds with a local routing number returned to the requesting call server, which in turn routes the call to its intended destination.
In accordance with yet another aspect of the invention, a method is provided for processing a call dialed to an IP endpoint in a communications network to afford dynamic addressing. In accordance with the method, the call is received in the network at a call server for processing. In response to the receipt of a call, the call server establishes a session with the IP endpoint by referencing the dialed end point through a Universal Resource Locator (URL) assigned to that end point. Using a URL in place of conventional IP address allows for dynamic address assignment, and allows for various call handling options when the end point is unavailable.
In connection with routing the call, the Call Server 26 as instructed by SCP 28 may need to provide some specialized functions. For example, the Media Server 23 may need to collect digits, provide announcements, and/or perform speech recognition. To that end, the Call Server 26 instructs the PVG 20 to establish a temporary bearer path connection via the IP fabric 22 to a media server 23 that functions as an Intelligent Peripheral (IPe) to collect the required data and provide the requisite announcements and other services that may be required in connection with the call.
A voice call server 26 has a signaling link to each of the PBX 16, the EO 18 and the PVG 20 for providing the necessary signaling information to the PBX, the EO and PVG, respectively, to perform the required call set-up and call teardown functions. In this embodiment, the call server 26 comprises a Nortel Networks Succession Model CS 2000 call server that has a Primary Rate Interface (PRI) signaling link to the PBX 16, an Integrated Services User Part (ISUP) signaling link to the EO 18, and a H.248 protocol link to the PVG 20. No only does the call server 26 perform the signaling to effect call set-up and call tear-down, the call server also typically records events for downstream billing, as well as providing alarms and measurements for trouble shooting and maintenance.
The voice call server 26 has a signaling link to a SCP 28 (i.e., a database) that contains call-processing instructions. The call processing instructions in the SCP 28 provide the call server 26 with routing information for handling special-featured calls, such as those dialed to an 800, 888, 877, 866, 900, 700, or 500 exchange, as well as SDN calls. In practice, the call server 26 queries the SCP 28 using the Transaction Capabilities Application Protocol (TCAP) routed via a SS7 link or an IP query over an IP network (we use TCAP over IP but it could be any suitable protocol such as SIP).
As an example of the call processing instructions provided by the SCP 28, consider an incoming call dialed to an 8YY number for which the called party has requested the time of day routing. Upon receipt of such a call in the network 10, the call server 26, when so notified of such a call from either the PBX 16 or the EO 18, will query the SCP 28 for routing instructions. Depending on the time of day, the SCP 28 will return different routing instructions corresponding to the desired routing by the called party. To populate the SCP 28 with the appropriate routing instructions to effectuate the desired call routing, the operator of the network 10 will typically make use of a Service Management System (SMS) 30. The SMS 30 receives customer input data regarding desired call treatment and converts that information into one or more appropriately formatted instructions for entry in the SCP 28.
In addition to a link to the SCP 28, the call server 26 also has a signaling link to a second database 31, typically referred to as a Local Number Portability (LNP) database because it stores location routing numbers. Telephone subscribers in a given telephone exchange sometimes choose to switch their provider of local service, but yet elect to retain their original telephone numbers. To route a call to such subscribers that have elected to retain their original numbers, the current service provider will typically assign a location routing number (LRN) corresponding to the original telephone number elected by the subscriber. Prior to routing a call, the call server 26 queries the LNP database 31 for the location routing number, typically via a TCAP over IP query. While the network 10 of
In addition to serving the voice end points 12 and 14, the network 10 also serves one or more IP endpoints, illustratively exemplified by PC phones 32 and 34. The end points could take other forms, such as IP telephone sets, set top boxes or other wired or wireless devices that operate via an IP link. (While
A Virtual Call Controller (VCC) 48, typically in the form of an IP softswitch of a type available from one of several vendors of telecommunication equipment, has signaling links to each PC phones 32 and 34 and to the IP PBX 36. In practice, the VCC 48 includes a Session Initiation Protocol (SIP) proxy 50 that communicates signaling information to the PC phones 32 and 34, the IP PBX 36 and the ER 38 using the Session Initiation Protocol. The SIP proxy 50 also includes a Gatekeeper function that uses the H.323 protocol for communicating with the IP PBX 36 and the H.248 protocol for communicating with the ER 38, although the SIP proxy could employ other protocols as well. By virtue of its signaling links to the PC phones 32 and 34, the IP PBX 36 and the ER 38, the SIP proxy 50 provides the proxy function (i.e., the signaling information and address resolution) to control set-up and tear down of calls originating from, and terminating at the PC phones. Also, by controlling the ER 38, the SIP proxy server 50 assures that customers who require a guaranteed level of service receive such service.
The VCC 48 has a signaling interface 52 through which the call controller launches a TCAPover IP query on a signaling link to the LNP database 31 for a location routing number. In addition, the signaling interface 52 allows the VCC 48 to launch TCAPover IP query to the SCP 28 to receive call-handling instructions. Like the aforementioned U.S. patent application Ser. No. 09/824,378 (incorporated by reference herein), the network 10 employs a common SCP 28 that is accessible to both the VCC 48 and the voice call server 26. In this way, a customer can have same routing logic controlling the routing of voice calls to and from the voice terminals, such as voice terminals 12 and 14, and IP calls to and from the IP endpoints, such as PC phones 32 and 34. Although
In addition to having a signaling link to the SCP 28 and the LNP database 31, the signaling interface 52 of the VCC 48 enjoys a direct signaling link to the call server 26 to allow the exchange of signaling information via the SIP-T or BICC over IP protocol (BICC and TCAP can also work over the conventional SS7 signaling network.). In this way, the VCC 48 may effectively interwork with the voice call server 26 for non-featured calls directed to one of the voice terminals 12 and 14 from one of the IP endpoints.
Along with the SIP proxy 50 and the signaling interface 52, the VCC 48 further includes an IP applications controller 54 for controlling IP and/or multimedia applications requested by one of the IP endpoints, such as one of PC phones 32 and 42. To that end, the IP applications controller 54 of the VCC 48 has a signaling link to a IP services database 56 so that the IP applications controller can launch a query via one of several known protocols, such as SIP, or Java Advanced Integrated Network (JAIN), or Lightweight Data Access Protocol (LDAP), to gain the requisite information needed to control the desired IP application. In some instances, the desired application is a “stateful” application that requires certain record keeping and other management activities so that the IP controller 54 remains involved during the application. Other desired applications may be so-called “stateless” applications where no record keeping or management is required in which case, the IP controller simply initiates the desired application and thereafter drops off so that the end points (i.e., the PC phones 32 and 34) will communicate directly, via the Internet or such other connection and implement any desired features.
The foregoing describes a technique for providing a Voice-Over Internet Protocol (VoIP) service implementation that affords a subscriber all of the features of an embedded traditional voice network while providing support for multimedia and Internet-based web applications.
The above-described embodiments merely illustrate the principles of the invention. Those skilled in the art may make various modifications and changes that will embody the principles of the invention and fall within the spirit and scope thereof.
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|U.S. Classification||370/392, 370/401|
|International Classification||H04L12/28, H04L12/56|
|Cooperative Classification||H04L65/1096, H04L65/1069, H04L29/06027, H04M2207/203, H04L47/24, H04L65/1043|
|European Classification||H04L47/24, H04L29/06C2, H04L29/06M2S5, H04L29/06M2S1, H04L29/06M2N3|
|Aug 27, 2001||AS||Assignment|
Owner name: AT&T CORP., NEW YORK
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:BETTA, CARL E.;HOOVER, GERALD L.;LAWSER, JOHN JUTTEN;ANDOTHERS;REEL/FRAME:012136/0325;SIGNING DATES FROM 20010807 TO 20010823
|Sep 22, 2009||FPAY||Fee payment|
Year of fee payment: 4
|Sep 25, 2013||FPAY||Fee payment|
Year of fee payment: 8